Promoting remanufacturing through subsidy and environment tax: Channel co-opetition, incentive alignment and regulation optimization
Promoting remanufacturing through subsidy and environment tax: Channel co-opetition, incentive alignment and regulation optimization
Recently, many governments have levied environment tax on production while subsidizing the output of remanufactured components to promote resource-saving and pollution reduction. Considering government’s regulations, this paper investigates whether the supplier selling remanufactured components (Supplier R) should develop a self-brand and whether the original equipment manufacturer (OEM) should keep sourcing from this competitive Supplier R or source from a supplier selling new components (Supplier N). We develop a channel system comprising of Supplier R, Supplier N, and OEM, based on which we analyze their equilibrium decisions in three typical structures (i.e., Base Scenario, Co-opetitive Scenario, Chain-to-chain Scenario). We find the OEM prefers to purchase remanufactured components when (1) its brand image advantage is significant; or (2) its brand image advantage is limited but the environment tax rate is high; or (3) its brand image advantage is limited, the environment tax rate is low, but the subsidy to supplier is high, even if Supplier R has self-brand and competes with the OEM. Our results are both theoretically interesting and practically relevant because we build a unifying model to study the government’s regulation optimization and show a full map for both the component suppliers and the OEMs to decide market encroachment or channel structure configuration.
Niu, Baozhuang
7bf06afc-8f6b-4ea1-9c5f-27fd17d21b3c
Ruan, Yiyuan
6a7aafd5-6770-4f10-8e3c-8249f1399949
Zeng, Fanzhuo
f1f8b7f6-b618-46fd-88fc-a08584249438
2 September 2022
Niu, Baozhuang
7bf06afc-8f6b-4ea1-9c5f-27fd17d21b3c
Ruan, Yiyuan
6a7aafd5-6770-4f10-8e3c-8249f1399949
Zeng, Fanzhuo
f1f8b7f6-b618-46fd-88fc-a08584249438
Niu, Baozhuang, Ruan, Yiyuan and Zeng, Fanzhuo
(2022)
Promoting remanufacturing through subsidy and environment tax: Channel co-opetition, incentive alignment and regulation optimization.
Transportation Research Part E: Logistics and Transportation Review, 166, [102880].
(doi:10.1016/j.tre.2022.102880).
Abstract
Recently, many governments have levied environment tax on production while subsidizing the output of remanufactured components to promote resource-saving and pollution reduction. Considering government’s regulations, this paper investigates whether the supplier selling remanufactured components (Supplier R) should develop a self-brand and whether the original equipment manufacturer (OEM) should keep sourcing from this competitive Supplier R or source from a supplier selling new components (Supplier N). We develop a channel system comprising of Supplier R, Supplier N, and OEM, based on which we analyze their equilibrium decisions in three typical structures (i.e., Base Scenario, Co-opetitive Scenario, Chain-to-chain Scenario). We find the OEM prefers to purchase remanufactured components when (1) its brand image advantage is significant; or (2) its brand image advantage is limited but the environment tax rate is high; or (3) its brand image advantage is limited, the environment tax rate is low, but the subsidy to supplier is high, even if Supplier R has self-brand and competes with the OEM. Our results are both theoretically interesting and practically relevant because we build a unifying model to study the government’s regulation optimization and show a full map for both the component suppliers and the OEMs to decide market encroachment or channel structure configuration.
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Promoting remanufacturing through subsidy and environment tax Channel co-opetition, incentive alignment and regulation optimization
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Accepted/In Press date: 21 August 2022
e-pub ahead of print date: 2 September 2022
Published date: 2 September 2022
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Local EPrints ID: 487340
URI: http://eprints.soton.ac.uk/id/eprint/487340
ISSN: 1366-5545
PURE UUID: e1ad97f4-db2a-40ee-bed6-d1bfc0b6d58e
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Date deposited: 19 Feb 2024 20:25
Last modified: 24 Apr 2024 16:45
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Author:
Baozhuang Niu
Author:
Yiyuan Ruan
Author:
Fanzhuo Zeng
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